IWRA World Water Congress 2008 Montpellier France
4. Development of Water Resources and Infrastructure
Author(s): Ahmad Tabatabaeefar
Mahmood
Omid
Reza Alimardani
Leila Naderloo
Payam Javadikia, Ph.D. student of Agricultural Machinery Engineering
Ahmad Tabatabaeefar, Professor of
Agricultural Machinery Engineering
Mahmood Omid, Assistant Professor of Agricultural Machinery
Engineering
Reza Alimardani, Professor of Agricultural
Keyword(s): Fuzzy logic controller, Irrigation system, Fuzzy system,
Article: PDFAbstract
The idea of irrigation is not new, irrigation
stems as far back as the Egyptians and probably further in unrecorded history. Even the idea of automated irrigation
is not new, mankind has figured out how to irrigate large areas of foliage through the use of automated and drop
irrigation systems. Efficiently automated irrigation systems, which can irrigate plants to a desired level and supply
those plants with just the amount of water required for normal an uptake plant growth, are currently not available.
These systems, if developed, could reduce waste of irrigated water.
The irrigation controller is the "brain" of an
entire irrigation system. It controls flow of water and fertilizer to plants, therefore, enables farmer, or gardener, to
obtain optimized results: a successful crop or a beautiful garden, by using an optimum amount of water and
fertilizer.
Nowadays computerized control is very essential for the greenhouse irrigation control. Conventional
methods for controlling greenhouse irrigation may not be effective since they are on-off control based on which
proportional control methods results in a loss of energy and productivity. This paper presents a solution for an
irrigation controller based on the fuzzy-logic methodology. First, it describes the general problem of irrigation. Then,
it discusses the physical control model. The developed fuzzy logic controller (FLC) prototype is based on a
Mamedani controller and it is built on MATLAB software. Following the discussion and the formal presentation of
the fuzzy controller, the paper provide examples that will show the simplicity in designing and constructing such a
system and other advantages of using fuzzy logic in the feedback control problem. The developed fuzzy logic
controller can effectively estimate amount of water uptake of plants in distinct depth using the reliable irrigation
model, evapotranspiration functions, environmental conditions of greenhouse, soil type, type of plant and another
factors affecting the irrigation of greenhouse.